US9922207B2 - Storing user data in a service provider cloud without exposing user-specific secrets to the service provider - Google Patents
Storing user data in a service provider cloud without exposing user-specific secrets to the service provider Download PDFInfo
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- US9922207B2 US9922207B2 US15/131,339 US201615131339A US9922207B2 US 9922207 B2 US9922207 B2 US 9922207B2 US 201615131339 A US201615131339 A US 201615131339A US 9922207 B2 US9922207 B2 US 9922207B2
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- 238000010586 diagram Methods 0.000 description 6
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F21/00—Security arrangements for protecting computers, components thereof, programs or data against unauthorised activity
- G06F21/60—Protecting data
- G06F21/62—Protecting access to data via a platform, e.g. using keys or access control rules
- G06F21/6218—Protecting access to data via a platform, e.g. using keys or access control rules to a system of files or objects, e.g. local or distributed file system or database
- G06F21/6245—Protecting personal data, e.g. for financial or medical purposes
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L63/00—Network architectures or network communication protocols for network security
- H04L63/10—Network architectures or network communication protocols for network security for controlling access to devices or network resources
- H04L63/102—Entity profiles
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L9/00—Cryptographic mechanisms or cryptographic arrangements for secret or secure communications; Network security protocols
- H04L9/08—Key distribution or management, e.g. generation, sharing or updating, of cryptographic keys or passwords
- H04L9/0894—Escrow, recovery or storing of secret information, e.g. secret key escrow or cryptographic key storage
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L9/00—Cryptographic mechanisms or cryptographic arrangements for secret or secure communications; Network security protocols
- H04L9/30—Public key, i.e. encryption algorithm being computationally infeasible to invert or user's encryption keys not requiring secrecy
- H04L9/3006—Public key, i.e. encryption algorithm being computationally infeasible to invert or user's encryption keys not requiring secrecy underlying computational problems or public-key parameters
Definitions
- This disclosure relates generally to encrypting and storing subscriber data in a cloud storage environment in such a manner that a service provider is restricted from decrypting and, as a consequence, from accessing, viewing or copying, that data.
- Remote access technologies, products and systems enable a user of a remote computer to access and control a host computer over a network.
- Internet-accessible architectures that provide their users with remote access capabilities (e.g., remote control, file transfer, display screen sharing, chat, computer management and the like) also are well-known in the prior art.
- these architectures are implemented as a Web-based “service,” such as LogMeIn, GoToMyPC, WebEx, Adobe Connect, Dropbox, and others.
- An individual (or subscriber) who uses the service has a host computer that he or she desires to access from a remote location.
- the individual can access his or her host computer using a client computer that runs web browser software.
- An emerging information technology (IT) delivery model is cloud computing, by which shared resources, software and information are provided over the Internet to computers and other devices on-demand.
- an application instance can be hosted and made available from Internet-based resources that are accessible over HTTP through a conventional Web browser.
- An example application is encrypted data storage.
- Subscriber (user) data is encrypted and stored in a service provider cloud in a manner such that the service provider is unable to decrypt and, as a consequence, to view, access or copy the data.
- a user-specific secret e.g., a password
- the techniques herein enable the user to share his or her data, privately or publicly, without exposing the user-specific secret with anyone that is not an intended recipient of the data (such as the service provider).
- the technique provides significant advantages because the end user password is never stored by the service provider persistently; thus, the service provider cannot access the user's data on its own.
- the user data is encrypted with a data key, such as a symmetric AES key. Any person or entity that possesses this data key can decrypt the customer data.
- a data key such as a symmetric AES key. Any person or entity that possesses this data key can decrypt the customer data.
- the data key is hidden from unauthorized entities, which entities include the service provider itself.
- each user is assigned a public/private key pair, referred to as an account public key and its associated account secret key.
- RSA is a representative public/private key pair.
- the account public key is stored in a central database and is used to encrypt the data key that encrypts the user data. The result of this encryption can only be decrypted with the account secret key.
- the account private key is encrypted with the user-specific secret.
- the account secret key is obtained.
- the account secret key is then used to decrypt the data key that decrypts the user data itself. This approach also facilitates sharing of the user data (with a person or entity authorized by the user) in a secure manner.
- FIG. 1 depicts an extensible Web-based remote access architecture in which exemplary aspects of the file transfer method may be implemented
- FIG. 2 is a process flow illustrating a method of storing and protecting user data in a service provider cloud according to this disclosure
- FIG. 3 depicts a UML interaction diagram for end user account management to the service provider cloud
- FIG. 4A and FIG. 4B together depict a UML interaction diagram of representative host computer interactions with the service provider cloud.
- FIG. 5 depicts a UML interaction diagram of representative service provider website interactions.
- FIG. 1 illustrates a high level view of a remote access architecture 100 in which the disclosed technique may be practiced.
- the architecture comprises “n-tiers” that include a web server tier 102 , a database tier 104 , and a gateway tier 106 .
- the web server tier 102 comprises a plurality of machines that each executes web server software.
- the web server tier provides an Internet-accessible web site.
- the web site associated with a site domain (however designated) is available from multiple locations that collectively comprise the web server tier 102 .
- the database tier 104 comprises a plurality of machines that each executes database server software.
- the database tier provides a network-accessible data storage service for generating and storing data associated with end user sessions to the remote access service.
- the gateway tier 106 comprises a plurality of machines that each executes application server software.
- the gateway tier provides a network-accessible connection service for establishing and maintaining connections between and among the participating end user computers.
- end user machines connect to the gateway servers over secure connections, e.g., over SSL, TLS, or the like.
- a representative machine on which the web server, database server or gateway server executes comprises commodity hardware (e.g., one or more processors) running an operating system kernel, applications, and utilities.
- the tiers are managed and operated by a commercial service provider, such as LogMeIn®, of Woburn, Mass.
- the service provider may have additional cloud-based infrastructure, such as cloud storage, but this is not required. Cloud storage may be provided by a third party entity.
- the service provider has an associated central database in which cryptographic keys and associated data may be stored.
- a first machine referred to as a “host” 103
- the host which is Internet-accessible, includes a remote access “host” application.
- the host has an associated cryptographic data store, which is a secure (protected) data store for storing cryptographic materials such as keys and associated data.
- the client machine also is an Internet-accessible machine that typically includes a web browser or similar rendering engine.
- a representative machine is a laptop computer, or a mobile device, such as a smartphone or tablet (e.g., the iPhone® or iPad®).
- the mobile device is any wireless client device, e.g., a cellphone, pager, a personal digital assistant (PDA, e.g., with 3G or higher NIC), a mobile computer with a smartphone client, or the like.
- Other mobile devices include any access protocol-enabled device (e.g., a Blackberry® device, an AndroidTM-based device, or the like) that is capable of sending and receiving data in a wireless manner.
- the first machine includes a remote access client application.
- the remote access client application may be LogMeIn IgnitionTM.
- the client application may be downloaded and installed via a mobile application delivery service, such as the Apple® AppTM Store.
- a “user_password” is a user-specific secret (or “password”) of an authorized user's account.
- a goal of the technique herein is that this secret is only known by the authorized user and remains unknown to the service provider.
- this “user password” is used to encrypt and decrypt the account secret key.
- the “user_data” is content (or, more generally, data) that the authorized user desires to be encrypted and stored in the service provider's cloud storage.
- the “aes_data_key” is a cryptographic key, such as a 256-bit symmetric AES key, that is used to encrypt the user_data desired to be encrypted and stored in the cloud storage.
- enc_file is a file generated by encrypting, with the aes_data_key, the user_data.
- enc_file results from an encryption function, designated herein by the following: encrypt (user_data, aes_data_key). This is the encrypted “file” as it is stored in the cloud storage.
- An account of an authorized user has a key pair associated therewith.
- the key pair is generated using a public key cryptographic protocol such as RSA.
- the public key of the RSA public/private key pair is designated herein as rsa_pub_acc_key, and the associated private (or “secret”) key is designated herein as rsa_priv_acc_key.
- the public key is the “account public key” and the private key is its associated “account secret key.”
- the account public key is stored in the cloud service provider central database, as well as in the host cryptographic data store.
- the account secret key is stored in the host cryptographic data store.
- the account secret key for the authorized user is encrypted with the authorized user's user-specific secret (password), i.e., encrypt (rsa_priv_acc_key, PBKDF (user_password)), with the result being a “value” enc_acc_key that is preferably stored in the service provider central database.
- the data key aes_data_key is encrypted with the account public key rsa_pub_acc_key as follows: rsa_encrypt (aes_data_key, rsa_pub_acc_key).
- the resulting “account encrypted data key” preferably is stored in the service provider central database, and in the host cryptographic data store.
- the pub_enc_data_key is the data key aes_data_key encrypted with a token associated with a public link, as rsa_encrypt (aes_data_key, PubliLinkToken), and it is stored in the service provider central database.
- FIG. 2 illustrates a process flow of a method of storing and protecting user data in a service provider cloud of this disclosure.
- the service provider may be a standalone commercial service provider (such as LogMeIn, or the like), or any other cloud-based environment, such as an environment created from existing IT infrastructures that are adapted to support cloud-based services.
- a representative cloud computing environment comprises a set of front-end administrative and operational support functions, together with a set of back-end computational resources.
- the cloud compute resources comprise a set of virtual machine instances (which are used to execute a target application that is being made available for access via the cloud), data stores, and associated support services.
- the subscriber stores data on one or more machines that are owned or controlled by the subscriber.
- the process begins at step 200 .
- the end user registers to the service at step 202 and, as an authorized user, obtains an account.
- a key pair is associated with the account of the authorized user.
- the key pair comprises an account public key, and an associated account secret key.
- the key pair is an RSA public/private key pair, although this is not a limitation.
- the authorized user is provided the account secret key.
- the communication of the account secret key to the end user occurs over a secure transport channel (e.g., an SSL link). This is not a limitation, as the account secret key may be provided via other means, such as e-mail, instant message, text message, or the like.
- the service provider receives and stores a “value” that has been generated (within the context of the end user machine) by encrypting the account secret key with a user-specific secret.
- the user-specific secret is known only to the end user. This completes the basic provisioning operations that are necessary to facilitate described security method.
- the process then continues with securing and storing the end user data (or content).
- data (desired to be protected) associated with the authorized user is encrypted with a data key to produce a “file.” This operation takes place in association with or at the end user machine.
- the file (that has been generated by encrypting with the data key data associated with the authorized user) is received and stored in the service provider cloud.
- the service provider also receives the data key.
- the service provider encrypts the data key (received at step 212 ) with the account public key to generate an account encrypted data key, which the service provider then stores. This completes the storage operations.
- a test is performed at step 216 to determine whether the user-specific secret has been entered (and received). If not, the routine cycles. If, however, the outcome of the test at step 216 indicates receipt of the user-specific secret, the routine continues.
- the service provider decrypts the value (received at step 208 ) to recover the account secret key.
- the service provider uses the account secret key (which it just recovered) to decrypt the account encrypted data key (which was generated at step 214 ) to recover the data key itself.
- the service provider then decrypts the file (which had been received at step 212 ) stored in the service provider cloud with the (just recovered) data key. Once the file is decrypted, the “data” is then provided at step 224 . This completes the process.
- the described technique enables user data to be stored (as an encrypted “file”) in a service provider cloud without exposing the user-specific secret to the service provider.
- FIG. 3 is a UML interaction diagram illustrating representative interactions among a host browser 300 , a service provider front-end web server 302 , and a service provider back-end database 304 .
- the described functions include a Register Account function 306 , a Change Password function 308 , and a Lost Password function 310 .
- the Register Account function 306 is the technique used by an end user to obtain an authorized user account, as described above. This function associates the RSA key pair with the account, as has been described.
- the relevant account data (for the authorized end user and his or her account) is then stored in the database.
- the user password itself is not stored persistently by the service provider (although it is available in-memory as needed).
- the database stores enc_acc_key (the value), rsa_pub_acc_key (the account public key) and the user's e-mail address (or other identifier).
- the end user may change his or her password using the Change Password function 308 as illustrated but, once again, the new password is never stored in the database 304 . Rather, only the value is updated and stored.
- the security model enables the Lost Password function 310 to enable the end user to create and enable use of a new password; however, once again the new password is not stored in the database. Rather, only the value gets updated.
- FIG. 4 is a UML interaction diagram illustrating representative interactions among a first host 400 , a service provider data center machine 402 , a second host 404 , and an associated browser 406 .
- Each of the first and second hosts 400 and 404 operate a remote access application provided by the service provider.
- Each host also includes a cryptographically-secure data store (or “crypto-store”).
- the browser 406 executes on a client machine of a third party, and the third party may or may not be a subscriber to the service but will be invited to access or view data associated with an authorized user account. If the third party is a subscriber, typically he/she will have an associated host, which in this example corresponds to the second host 404 .
- Each host machine has its own associated public/private key pair with the service provider.
- the described functions include a Register Host function 408 , a Join/Create Sync Set function 410 , a Host Put Data function 412 , a Host Get Data function 414 , a Host Share function 416 , and an Accept Invite function 418 .
- the Register Host function 408 is used to register the host machine with the service provider.
- the service provider provides various pieces of information to the host including the account public key, the account secret key, and a host identifier, which the host then stores in the associated crypto-store.
- the Join/Create Sync Set function 410 is the function by which the host makes a request to the service provider to create a new synchronization set or to join an existing synchronization set (as stored in the cloud or other data storage).
- a “sync” set is created whenever it is desired to have a data set stored in the cloud and then replicated across one or more additional hosts for data integrity purposes.
- synchronization performs replication of the file across a set of machines.
- the synchronization process is implemented using a distributed real-time file synchronization application that ensures selected folders always have identical content on all participating computers. This application is merely illustrative, as the technique described herein may be used to secure any subscriber data on one or multiple machines.
- the host Using the Join/Create Sync Set function 410 , the host obtains the account secret key, which it saves in the associated crypto-store. This is step 206 in FIG. 2 .
- the Host Put Data function 412 is used to store the subscriber data in the cloud, as previously described. This function corresponds to steps 210 and 212 in FIG. 2 .
- the file is stored by the host making an HTTP PUT request.
- the Host Get Data function 414 is used to enable the host machine to obtain access to data from storage. To this end, the host makes an HTTP GET request to the data center, passing in the name of the file. The file is returned to the host, which then performs the identified decryption operations to obtain access to the user data.
- the Host Share function 416 is used to enable the host to generate an invitation (and, in particular, an invitation link) to access the user data and to send that invitation to the client browser 406 .
- the invitation link includes a temporary password that is preferably a one-time use password.
- the client browser 406 executes the Accept Invite function 418 to obtain access to the user data by the invitee clicking on the invitation link. If the invitee is not a user of the service, the new user is first directed to register with the service, after which a password change is effected to substitute the invitee's password for the temporary password. The invitee then obtains and stores (in its associated host 404 crypto-store) the key information that is necessary to enable acceptance of the (first) user's share invitation.
- FIG. 5 is a UML interaction diagram illustrating representative interactions among a client browser 500 , the service provider web server 502 , and the server provider back-end database 504 to facilitate public access to the user data.
- An Access function 506 is the operation by which the end user obtains access to his or her data that has been stored (and possibly replicated by the distributed synchronization application). To this end, the end user logs into the service and provides the user-specific secret, namely, the user password that is not stored in the service provider database. Steps 222 and 224 (of FIG. 2 ) are then carried out to enable the browser to obtain access to the desired user data.
- the Public Link function 508 provides an alternative technique by which the browser can request and obtain a public link token (or “ticket”) that can be shared and used to access the user data.
- the service provider cannot access the user's data on its own. Only upon receipt of the user password it is possible to decrypt and obtain the data key that is used (in the first instance) to encrypt the data itself.
- the data is not available in the clear in the service provider environment, and additional mechanisms are provided to facilitate sharing (both private and public) while still maintaining the above-described security paradigm.
- the user password is available (but only in-memory), thus ensuring that the user-specific secrets are never exposed to the service provider.
- the key pair (the account public key and the associated account secret key) on the client.
- the encrypting of the account secret key with the user password may involve additional steps.
- the account secret key may be encrypted first using a shorter key length AES key, with the result being encrypted by the user password.
- This apparatus may be specially constructed for the required purposes, or it may comprise a general-purpose computer selectively activated or reconfigured by a computer program stored in the computer.
- a computer program may be stored in a computer readable storage medium, such as, but is not limited to, any type of disk including an optical disk, a CD-ROM, and a magnetic-optical disk, a read-only memory (ROM), a random access memory (RAM), a magnetic or optical card, or any type of media suitable for storing electronic instructions, and each coupled to a computer system bus.
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Abstract
Description
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US20130111217A1 (en) | 2013-05-02 |
US9317714B2 (en) | 2016-04-19 |
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US20170017802A1 (en) | 2017-01-19 |
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